Lauren Albrecht
@TheAlbrecht_Lab
Great minds don’t think alike.
Dream come true to wake up on the cover of Nat Chem Bio #MrTAC #degrader
Honored to have our image on the cover of this month’s issue @nchembio featuring the MrTAC paper (linked below)! 🔬🧫
DEL is accelerating our Induced Proximity Platform—helping us discover small molecules that rewire cellular processes and bind challenging targets. A powerful example of DNA driving therapeutic innovation. #DNADay #MyCompany
Our DNA-Encoded Library (DEL) platform 🧬 is accelerating drug discovery by rapidly identifying molecules that have the potential to become therapies. This #DNADay, discover how we’re using DNA to advance therapeutics for those in need 🔗: amgen.ly/3EpGvON
Improvement of a DCAF1 binder that can be applied to targeted protein degradation co-led by Serah Kimani, PhD at the SGC, University of Toronto. Congratulations! Link below: nature.com/articles/s4200…
#ChemBioChem @LJSeabrook, @Cath_Livelo and @TheAlbrecht_Lab review the latest & greatest in chemical tools that control protein turnover - make sure to give this a read! • onlinelibrary.wiley.com/doi/10.1002/cb…
The @TheAlbrecht_Lab hosted a lab visit field trip for middle- and high-school-aged children who are living with cystinosis as part of the Day of Hope Family Conference. Read more: pharmsci.uci.edu/2025/06/05/alb…
Exciting Induced Proximity session with talks by @alessiociulli, @TheAlbrecht_Lab, and Sai Gourisanker!
🙏 🔥💕
Exciting Induced Proximity session with talks by @alessiociulli, @TheAlbrecht_Lab, and Sai Gourisanker!
Really interesting plant work in @Dev_Cell examining ER sub-domains where peroxisomes and lipid droplets bud. cell.com/developmental-…
Top 5 advances in medicine this week (🧵) 1. An untapped treasure trove of antibiotics The proteasome breaks down proteins that are no longer needed, but it turns out that some of the peptides it produces are repurposed as antibiotics The top hit is a peptide derived from a…
Human Kidney Multiomics👹 👉snRNAseq 👉Multi-Epigenomics (Microdissected glomeruli vs tubulointerstitium DNA methylome, snATACseq, CUT&RUN H3K4me1 H3K4me3 H3K27Ac H3K27me3) 👉Microdissected Proteomics 👉#SpatialTranscriptomics #Visium scMEGA for regulons CellOracle in silico…
So much fun sharing MrTAC with Keystone and seeing old friends and making new ones @danetteldaniels @FleurMFerguson @StevenMBanik @LJSeabrook #lysosome #tpd
The Alfred P. Sloan Foundation has named Lauren Albrecht a Sloan Research Fellow for her innovative work in cell and chemical biology. She is one of 126 early-career scientists to be recognized this year by the foundation as next-generation leaders. @TheAlbrecht_Lab
Honored to a recipient of the 2025 Sloan Research Fellowship #sloanfellow
🎉Congrats to the 126 early-career scientists who have been awarded a Sloan Research Fellowship this year! These exceptional scholars are drawn from 51 institutions across the US and Canada, and represent the next generation of groundbreaking researchers. sloan.org/fellowships/20…
Inspired by @FleurMFerguson and all speakers getting Tuesday started off right! @KeystoneSymp #KSProxDrugs25 #targetedproteindegradation
Very excited for our next seminar next week! Yuh Min Chook(@yuhminchook) at UTSW will share an intriguing allosteric mechanism of drug-induced XPO1 degradation, mediated by the CRL5-ASB8 E3 ligase complex. Join us at 12 pm EST (Feb 20th). Preprint - biorxiv.org/content/10.110…
Happening now!
Dream come true to wake up on the cover of Nat Chem Bio #MrTAC #degrader
Honored to be giving a talk at Dana-Farber’s TPD seminar this Thursday 2/6 at 9am PST. dfci.zoom.us/webinar/regist… Come check out MrTAC 💊@DFCI_ChemBio
NEW ISSUE ✨ Check out the latest in #metabolism research from across disciplines. Our dreamy cover highlights wok by Lim et al. on enzymatic #moonlighting functions 🌒 nature.com/natmetab/volum…
Loving #CellBio2024 and excited to present in micro session MONDAY 10:30 AM 28C microsession #MrTAC #lysosome #degrader #TPD #methylation
Top Citations 2024: #19🏆✨ @FormentiniLaura (@CBM_CSIC_UAM) and co-authors describe how an ETFDH-driven metabolon supports #OXPHOS efficiency in skeletal #muscle via regulation of coenzyme Q homeostasis 🔄 nature.com/articles/s4225…